KR20140050324A - A debris barrier - Google Patents

Abstract

The present invention relates to a debris barrier structure for preventing disasters caused by soil (1). The debris barrier structure (400) includes a hanging member (100) dispersing energy by blocking the soil (1) and a pneumatic standing device which is installed in the lower part of the hanging member (100) and blocks the soil (1) by standing the hanging member (100) by being expanded. The present invention minimizes the disaster caused by the soil by reducing mobility of the soil and preventing the flow of a river normally.

Description

{A DEBRIS BARRIER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a civil engineering field, and more particularly, to a four-dam structure.

Debris flow refers to the phenomenon that a mountain slope, which has been subjected to weathering for a long time, is saturated with water due to heavy rains or rainy season, and its weight can not sustain the frictional force.

In other words, it is a kind of landslide occasionally occurring on the slope of slope in the middle age.

These debris flow not only has a catastrophic effect on residences and civil engineering structures (roads, etc.) located in the lower part of the mountain, but also that the bottom rocks appear in places where debris flows, .

Conventional techniques for preventing such problems include 'multifunctional four-way dam and its construction method' (Korean Patent Registration No. 10-0560986, 2006.03.08), 'Bertrus Steel Sambang Dam' (Korean Patent Registration No. 10-0491444,2005.05. 17). Sambang dam and screen dam were installed in a valley with a large riverbed, which prevented the phenomenon of torrential landslides caused by torrential riverbed digging and cutting off both sides of the mountain.

However, these technologies are only applicable to rivers, and they are not effective in preventing soil erosion because they are durable due to long-term durability due to impact damage.

Also, it takes a lot of installation cost, and there is a disadvantage that it is almost impossible to perform maintenance work in case of breakage in the future.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a four-way dam structure that does not disturb the flow of a river in a normal state and reduces the fluidity of the debris flow, thereby minimizing disasters caused by debris.

In order to solve the above problems, the present invention provides a four-dam structure for preventing disasters caused by a debris flow (1), comprising: an engaging member (100) configured to block a debris flow (1) to dissipate energy; A pneumatic standing device 200 installed at the bottom of the latching member 100 and configured to stand the latching member 100 by expansion to protect the ground stone 1; Presents a four-sided dam structure 400, characterized in that it comprises a.

The pneumatic standing device (200) includes an airbag (210) formed to be capable of shrinking and expanding; A fixing part 220 formed to fix the airbag 210 on the ground; And a pneumatic supply device 230 configured to inject air into the airbag 210. [

The latching member 100 preferably includes a plate member 110 formed at a lower portion of the latching member 100 in a closed structure so as to prevent the introduction of the earth stone 1 to protect the airbag 210.

The engaging member 100 may include a plurality of beam members 120 spaced apart from each other in the left-right direction.

The air pressure supply device 230 is preferably configured to inject air into the airbag 210 by a signal from the rainfall sensor 10.

And a base part 300 installed at a lower portion of the pneumatic feeding device 230 to fix the pneumatic standing device 200 to the ground.

A water through hole (310) is preferably formed in the lower part of the base part (300) to allow the flow of the river in the normal direction.

It is preferable that a net member 320 is installed in the water through hole 310 so that a part of the earth stone 1 is caught.

The net member 320 includes a reinforcing bar 321; Or gabbing 322, as shown in FIG.

The present invention also provides a debris prevention structure formed by a plurality of the dam structure 400, wherein the plurality of dam structures 400 are installed at a distance from each other.

Preferably, the plurality of side dam structures 400 are installed along the width direction of the river.

And a protection pile 500 installed on an upstream side of the side dam structure 400 so as to guide the flow of the undrained stone 1 to the side dam structure 400. [

The present invention provides a four-way dam structure that does not interfere with the flow of a normal river and reduces the fluidity of the debris so as to minimize the disaster caused by the debris.

1 to 5 show an embodiment of a four-way dam structure according to the present invention,
1 is a perspective view of a first embodiment.
2 is a perspective view of a second embodiment;
3 is a sectional view of a second embodiment;
4 is a front view of the first embodiment of the base portion;
5 is a front view of a second embodiment of the base.
6 to 7 illustrate an embodiment of a debris prevention structure formed by a plurality of four-way dam structures according to the present invention,
6 is a perspective view of the first embodiment;
7 is a perspective view of the second embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1 and subsequent drawings, the four-way dam structure 400 proposed by the present invention is a four-way dam structure for preventing disasters caused by a debris flow 1, 100); And a pneumatic standing device 200 installed at a lower portion of the locking member 100 and configured to stand the locking member 100 by expansion to protect the ground stone 1 ).

The present invention proposes a solution for minimizing the disaster caused by the de-Stone 1 when the de-stone 1 is generated.

Until now, the focus has been on restoration rather than prevention as countermeasures against mountain disasters. On the other hand, the present invention can contribute to environmental and economic contribution in terms of preventing disasters in advance.

Since the quadruple dam structure 400 of the present invention is in a state in which the engaging member 100 is normally covered with water, it does not interfere with the flow of the water flow normally.

Therefore, in the normal state, the landscape of the river is not obstructed by the four-way dam structure 400, and the flow of the running water is smoothly performed.

The four-way dam structure 400 according to the present invention is characterized in that the engaging member 100 is automatically raised when the earth rock 1 is generated by a landslide to effectively protect the earth rock 1.

That is, when the undrawn stone 1 is generated, the embraced member 100 in a covered state automatically stands up by the pneumatic standing device 200 to protect the undrawn stone 1.

The engaging member 100 is a structure formed so as to cut off the debris 1, wood, and other gravels from being caught, and to allow water to pass through.

Hereinafter, a structure in which the latching member 100 is automatically lifted by the expansion of the pneumatic standing apparatus 200 will be described.

The pneumatic standing device 200 includes an airbag 210 formed to be capable of shrinking and expanding and a pneumatic feeder 230 for injecting air into the airbag 210 and a fixing portion 220 formed to fix the airbag 210 to the ground ).

When the debris flows into the airbag 210 by the pneumatic feeder 230, the airbag 210 is inflated so that the locking member 100 installed on the top of the airbag 210 automatically (Fig. 3).

At this time, the amount of air injected into the airbag 210 can be controlled by the air pressure supply device 230 to adjust the standing angle of the engaging member 100.

This is advantageous in that the engaging member 100 stands up at an appropriate angle according to the size of the generated deodorized stone 1 and can effectively cope with the deodorized stone 1. [

Further, the locking member 100 is characterized in that the standing angle is reduced when the predetermined amount of pressure is applied by the earth stone 1, and the pressure is absorbed by the airbag 210.

This has the following advantages.

The conventional four-way dam structure has a problem in that deformation occurs in the structure when the earth stone 1 and other runoff collide due to the fixed structure.

On the other hand, the quadruple dam structure 400 of the present invention has the effect of preventing the deformation of the structure as the shock of the engagement member 100 is buffered by the airbag 210.

Therefore, the durability of the four-way dam structure 400 can be increased to secure the structural stability.

Here, the fixing portion 220 may be any member capable of fixing the airbag 210 to the ground, but it is preferable that the fixing portion 220 is made of a steel material having high corrosiveness and fixing force against water.

Since the engaging member 100 is a transmissive structure through which water can pass through the earth stone 1, a plate member 110 of a closed structure is provided at a lower portion of the engaging member 100 in order to prevent the air bag 210 from being damaged thereby, (Fig. 1).

Through this, the airbag 210 can be secured because there is no fear of damage due to the earth (1).

It is preferable to provide a plurality of beam members 120 at mutually spaced intervals along the left and right direction of the engaging member 100 (FIG. 2) in order that the engaging member 100 more effectively protects the earth Stone 1.

As a result, the earth stone 1 is protected by the double structure, so that the earth stone 1 can relieve the impact of the retaining member 100.

The air pressure supply device 230 is provided with a rainfall sensor 10 to constantly check the amount of rainfall so that air is automatically injected into the airbag 210 by a signal from the rainfall sensor 10 when the earth stone 1 is generated 3).

As a result, when the undrawn stone 1 is generated, the engaging member 100 quickly stands up and effectively protects the earth stone 1.

The pneumatic standing apparatus 200 may be directly fixed to the ground but the foundation unit 300 is installed below the pneumatic pressure supply apparatus 230 so that the sidewall structure 400 can be more stably supported, It is preferable that the pneumatic standing apparatus 200 is fixed to the ground (FIG. 2).

It is structurally preferable that the foundation part 300 is formed by using concrete having high durability and high corrosion resistance to water.

It is preferable that the base portion 300 has a water through hole 310 formed therein so that the river can pass through the bottom portion thereof (FIG. 2).

In other words, the flow of the river is prevented from being hindered by the base portion 300 in normal times.

The water passage hole 310 allows a flow of water at a normal flow rate while a netting member 320 is installed so as to reduce the flow energy of the earth stone 1 when a debris flow 1 is generated, .

The net member 320 may be any member capable of satisfying the above function, but the reinforcement 321; Or gabbing 322, as shown in FIG.

Particularly, a reinforcing bar 321 is provided on the water through hole 310 on the upstream side of the river to block large-sized debris and a gabbing hole 322 is formed in the water through hole 310 on the downstream side of the river, It is more effective for particles to block small debris flows (Figures 4 and 5).

The four-way dam structure 400 according to the present invention can effectively exhibit the above-described function of the four-way dam structure 400 through a structure in which a plurality of lines are installed in a river.

Accordingly, the present invention simultaneously shows a debris prevention structure formed by a plurality of the dam structures 400 (Figs. 6 and 7).

The earth-and-stone protection structure can be installed in various arrangements and can be appropriately installed according to the environment of a river. However, in general, a structure in which a plurality of square dam structures 400 are installed at intervals from each other is preferable.

In addition, through the structure in which the four-way dam structure 400 is installed along the width direction of the river, it is possible to effectively protect the undrawn stone 1 flowing through the river without missing.

In order to more effectively perform the function of the four-way dam structure 400, the undecorated earth guard structure may be formed in the following structure.

The pile 500 is further provided on the upstream side of the four-way dam structure 400 so as to guide the flow of the undrawn stone 1 to the four-way dam structure 400.

The flow of the earth stone 1 is concentrated on the square dam structure 400 having a relatively high installation cost as compared with the protection stone 500, thereby preventing the square dam structure 400 from failing to function at an unnecessary position.

In addition, the protective pile 500 functions to disperse the flow of the earth stone 1 and to cause the large aggregate such as wood to collide with the protective pile 500, thereby reducing the flow energy of the earth stone 1.

As shown in FIG. 6, the soil stone protection structure is constructed such that a protection pile 500 is installed on the upstream side of a river and a plurality of four-way dam structures 400 on the downstream side thereof are spaced apart from each other along the width direction of the river Structure.

As shown in FIG. 7, a protective pile 500 may be installed on the upstream side of the river, and a plurality of four-way dam structures 400 may be provided on the downstream side along the width direction of the river.

Through such a structure, the earth-and-stone protection structure can effectively prevent the earth rock 1 and prevent disasters caused by the earth rock 1.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1: Debris 100: Stuck member
200: a pneumatic standing device 210: an air bag
220: fixing part 230: pneumatic supply device
110: plate member 120: beam member
10: Rainfall sensor 300: Base part
310: Through hole 320: Net member
321: Rebar 322: Gabion
400: Alluvial dam structure 500: Protective pile

Claims (12)

A four-way dam structure for preventing disasters caused by debris flow (1)
A catching member (100) formed to dissipate energy by preventing the earth (1);
It is installed on the lower portion of the locking member 100, the pneumatic standing device 200 formed to protect the earth (1) by standing up the locking member 100 by expansion;
Four sides dam structure (400) comprising a. The method of claim 1,
The pneumatic standing device (200)
An airbag 210 formed to be capable of contraction and expansion;
A fixing part 220 formed to fix the airbag 210 on the ground;
A pneumatic feeder 230 configured to inject air into the airbag 210;
Four sides dam structure (400) comprising a. 3. The method of claim 2,
The latching member (100)
And a plate member (110) formed in a closed structure so that the underside (1) is not introduced to protect the airbag (210)
Four sides dam structure (400) comprising a. The method of claim 1,
The latching member (100)
A plurality of beam members 120 installed at intervals along the left and right directions;
Four sides dam structure (400) comprising a. 3. The method of claim 2,
The pneumatic feeder (230)
Four-sided dam structure 400, characterized in that formed to inject air into the airbag 210 by the signal of the rainfall sensor (10). 3. The method of claim 2,
A base part 300 installed below the pneumatic feeding device 230 to fix the pneumatic standing device 200 to the ground;
Four-sided dam structure 400, characterized in that it further comprises. The method according to claim 6,
Below the base portion 300,
Four-way dam structure 400, characterized in that formed; flowing water through hole 310 to allow the flow of the river in normal. 8. The method of claim 7,
The flowing through hole 310 is
The dam member 400, characterized in that the net member 320; The method of claim 8,
The net member 320 is
Reinforcing bars 321; Or gabion 322; four sides dam structure 400, characterized in that formed by. Claims 1 to 9 as a soil protection structure formed by a plurality of four-side dam structure 400 of any one of claims,
Wherein the plurality of side dam structures (400) are spaced apart from each other. The method of claim 10,
Wherein the plurality of side dam structures (400) are installed along the width direction of the river. The method of claim 10,
(500) installed on the upstream side of the square dam structure (400) so as to guide the flow of the undrawn stone (1) to the square dam structure
Further comprising the steps of:

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